Your cart is empty
Add prompt packs to continue
Copy, paste and use them in your favorite AI:
Just $0.08 per prompt · one-time payment
100 resources included
This collection of high-level engineering prompts is designed to cover the fundamental disciplines: Civil, Industrial, Mechanical, Electrical and Environmental. Each prompt has been structured to address complex problems, from structural calculation and process optimization to thermodynamic analysis and sustainability. These prompts guide the AI to act as an expert consultant, demanding mathematical rigor, regulatory compliance, and data visualization.
He acts as a Senior Consulting Engineer with more than 20 years of experience in drafting critical documentation and auditing highly complex projects. Your mission is to transform a set of raw data, field observations and experimental results into a 'Technical Conclusions' section that is irrefutable, professional and of high strategic value for decision making in the [TIPO_DE_PROYECTO] environment. To begin, thoroughly analyze the following inputs: [DATOS_CLAVE_OBTENIDOS] and contrast them with the design parameters and [OBJETIVOS_DEL_PROYECTO]. You must precisely identify whether the results comply with [NORMATIVA_APLICABLE] or if there are critical deviations that put operability or safety at risk. Don't limit yourself to a superficial description; delves into the technical implications of each finding, establishing correlations between the variables analyzed and the overall performance of the system. Organize the writing under a hierarchy structure of technical importance: 1. Compliance Synthesis (Verification of standards); 2. Analysis of Risks and Vulnerabilities (Identification of points of failure or degradation); 3. Efficiency Evaluation (Comparison of performance vs. theoretical); and 4. Final Technical Verdict. Each conclusion must be worded assertively, eliminating doubtful language and replacing it with statements based on solid technical evidence. If problems were detected, include a brief mention of the probable root cause. Adjust the level of technicalities according to [AUDIENCIA_OBJETIVO] (e.g. operations staff, executive management or external auditors). Make sure each conclusion is independent but coherent with the rest of the document, making it easy for a reader to understand the current status and future needs of the project without needing to re-read the entire report. It ends with a section of 'Critical Recommendations' derived directly from the conclusions presented, prioritizing those that affect the security and continuity of the service. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
Instant access after purchase from your dashboard. Just copy and paste into your AI.
ChatGPT, Claude, Gemini, DeepSeek, Grok, Qwen and any AI chat.
Yes. Every prompt includes bracketed fields where you insert your own information, context and specifics, so they fit your situation, country or industry.
Yes. Above you can read full sample prompts, exactly as you'll receive them, to check the quality before paying.
Yes. Pay once and they're yours forever, updates included.
He acts as a Senior Consultant in Renewable Energy Engineering and Decarbonization Strategy with extensive experience in large-scale infrastructure projects. Your task is to prepare a comprehensive technical and financial proposal for the energy transition of a [TIPO_DE_INDUSTRIA] type facility located in [UBICACION_GEOGRAFICA], whose main objective is to achieve energy autonomy and reduce the carbon footprint by [PORCENTAJE_REDUCCION]%. The proposal must begin with a detailed diagnosis of the current energy consumption profile, based on an annual consumption of [CONSUMO_ANUAL_KWH]. You must carry out a comparative analysis of at least three clean generation technologies (for example: solar photovoltaic with tracking, vertical axis wind, or residual biomass) that are technically and geographically viable for the mentioned area. Justify the selection of the optimal technology based on the available resource (irradiation, wind speed or availability of raw material) and compatibility with the plant's operational processes. Develop a conceptual engineering section that includes the sizing of the proposed system, the installed capacity in MWp, and the configuration of battery energy storage systems (BESS) to manage intermittency and optimize load shifting (peak shaving). It integrates advanced energy efficiency concepts, such as waste heat recovery or motor optimization using frequency converters, to ensure that the demand to be covered is the minimum necessary before sizing the generation. In the financial block, it presents an economic viability analysis that includes CAPEX (capital expenses), OPEX (operating expenses), and the calculation of the LCOE (Levelized Cost of Energy). It is crucial to determine the Investment Recovery Period (Payback) and the Internal Rate of Return (IRR), considering an estimated budget of [PRESUPUESTO_ESTIMADO] and evaluating possible tax incentives, clean energy certificates (CELs) or carbon credits applicable in the region. Finally, it concludes with a phased implementation plan that ranges from detailed engineering and obtaining regulatory permits to grid interconnection and commissioning. Quantify the total environmental impact, expressed in tons of CO2 equivalent avoided annually, aligning the proposal with the company's specific [OBJETIVOS_DESCARBONIZACION] and international sustainability standards. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
He acts as a Senior Financial Strategy and Industrial Asset Audit Consultant with 20 years of experience in large-scale engineering projects. Your mission is to develop a comprehensive fixed asset valuation model for the project [Name of Engineering Project], rigorously applying International Financial Reporting Standards (IFRS/IFRS), specifically IAS 16 (Property, Plant and Equipment) and IAS 36 (Impairment of Assets). The analysis should focus on a fleet of assets that includes [List of Specific Assets, e.g. Heavy Machinery, Turbines, Grid Infrastructure], which operate under [Operational/Weather Conditions] conditions in the [Project Location] region. For each asset category, you must perform a technical estimate that combines the depreciated replacement cost approach and the market approach. It is essential that you determine the technical useful life based on the manufacturer's specifications and the actual field utilization factor, calculating the accumulated depreciation using the [Depreciation Method, e.g.: Straight Line/Declining Balances] method. You must consider critical variables such as the estimated salvage value at the end of the useful life of [Number of Years] years and the capitalizable costs associated with the installation, assembly and initial commissioning tests, ensuring that the Net Book Value reflects the physical and economic reality of the asset. The report must include an analysis of technical and functional obsolescence. Given that the [Engineering Sector] sector is evolving rapidly, evaluate whether current assets suffer from depreciation due to the emergence of more efficient technologies or changes in environmental regulations in [Country/Region]. Perform an impairment test (Impairment Test) by projecting the future cash flows that each cash generating unit (CGU) is capable of producing, discounting them at a rate [WACC Rate/Discount Rate %] to compare the value in use versus the fair value less costs to sell. It concludes with a proposal to optimize the life cycle of assets (Asset Lifecycle Management). Generate a summary table that details: Gross Value, Annual Depreciation, Current Market Value and Action Recommendation (Keep, Repower or Dispose). The final result must serve as the basis for the accounting close of the year and for planning reinvestments in the capital budget (CAPEX) for the next fiscal cycle, guaranteeing that financial control and expense estimation remain within the expected profitability margins for the project. If any key information needed to fill the bracketed fields is missing, ask me the necessary questions before answering.
It's a master instruction, optimized for AI.
Prompt
your instruction
AI
Result
Based on 13 reviews
I didn't expect them to be this complete. They saved me hours of work in the first week. One hundred percent recommended.
I was impressed by the quality. The prompts are really well thought out and the effort shows. Totally recommend them.
I didn't expect them to be this complete. They work just as well in ChatGPT and Claude. An investment that pays for itself.
I didn't expect them to be this complete. They saved me hours of work in the first week. Already recommended them to my team.
Worth every penny. They saved me hours of work in the first week. Totally recommend them.
It's fine, nothing more. They work as a starting point. Works if you customize it.
Good value for money. They saved me time on several tasks. I recommend it.
Worth every penny. The index is organized and I find what I need instantly. One hundred percent recommended.
Exceeded my expectations. The index is organized and I find what I need instantly. Already recommended them to my team.
I didn't expect them to be this complete. The quality of the answers I get improved a lot. Totally recommend them.
Worth every penny. They work just as well in ChatGPT and Claude. One hundred percent recommended.
I didn't expect them to be this complete. The index is organized and I find what I need instantly. Totally recommend them.
Exceeded my expectations. The quality of the answers I get improved a lot. Totally recommend them.